A switch system for controlling dispensing from a dispensing system. A frame is coupleable to the dispensing system and has a front and back. A lever extends between a pivot and pressing ends and is pivotally coupled to the frame, being pivotable between dispensing and non-dispensing positions. A resilient member between the lever and the back of the frame extends between an anchor and a contact region. The anchor region is coupled to the frame and the contact region is closer than the anchor region to the lever. A roller is pivotally coupled to the contact region. The resilient member biases the lever towards the non-dispensing position via the roller. An electronic switch is between the lever and the back of the frame. The electronic switch is actuated to cause dispensing when the lever is pivoted into the dispensing position.

Disclosed herein are a water purifying device and a method for controlling the same. The water purifying device is characterized in that a water discharge module capable of moving vertically is provided with a sensor. Specifically, in the water purifying device of one embodiment, the sensor may measure a height of a container, by transmitting and receiving a signal for measuring a distance at a first point of the water discharge module, and may detect both a height of the inlet of the container and a water level, by transmitting and receiving the signal and measuring a water level at a second point of the water discharge module.

An insert for use with a beverage dispenser includes a diffuser having an upstream end configured to receive the first base fluid, a downstream end with an outlet configured to dispense the first base fluid, and a center bore extending between the upstream end and the downstream end along an axis. A stem is disposed in the center bore of the diffuser and has a first end configured to receive a second base fluid and an opposite second end with an outlet configured to dispense the second base fluid. The outlet of the diffuser is upstream from the outlet of the stem such that the first base fluid dispensed from the outlet of the diffuser mixes with an additive fluid before the second base fluid dispensed from the outlet of the stem mixes with the additive fluid.

The present disclosure provides composite cables, particularly multipurpose composite cables usable for fluids dispensing arrangements.

An apparatus for dispensing liquid comprising: a base structure having a liquid inlet configured to receive a liquid from a liquid source, a gas inlet configured to receive gas from a gas source, a dispensing outlet connected to a liquid dispensing unit, a storage connecting portion connected to a liquid storage, and a passage arrangement configured to put at least two of the liquid inlet, the gas inlet, the dispensing outlet and the storage connecting portion into fluid communication with each other. The apparatus further comprises a valve arrangement seated in the base structure and configured to control fluid passage of the liquid inlet, the gas inlet, the dispensing outlet, and/or the storage connecting portion. The apparatus further comprises a control unit having at least one signal input configured to be connected to a user interface, and at least one signal output configured to control the valve arrangement.

Apparatus and associated methods relate to a water dispensing lamp (WDL). In an illustrative example, the WDL may include a base module disposed on a horizontal plane, and a fluid dispensing stem coupled above the horizontal plane along a vertical axis. The fluid dispensing stem, for example, may include an electrical pump and a dispensing element. For example, the electrical pump may be configured to pump fluid out of the dispensing element towards the base module. In some implementations, the WDL may include a lamp shade coupled to the fluid dispensing stem. Various embodiments may advantageously conceal the dispensing element by the lamp shade unless a viewing angle between the horizontal plane and a viewing axis is larger than a predetermined viewing angle threshold.

Embodiments provide an automated fluid dispenser that comprises a housing, a pump subsystem, a dispenser subsystem, and a receptacle sensor. The housing defines an enclosure that covers one or more subsystems and provides an interface for attachment to a fluid reservoir. The receptacle sensor is configured to detect a fluid receptacle within a detected distance and transmit an activation signal to the pump subsystem to pump a volume of fluid. The volume of fluid is dispensed via the dispenser subsystem to a fluid receptacle. In embodiments, the volume of fluid is proportional to a detection distance or a detection time. In embodiments, the automated fluid dispenser is configured with a display device to provide one or more graphical user interface elements.

A water ejecting apparatus includes a case and a water ejection unit coupled to one side of the case. The water ejection unit includes a rotator seated inside at a front of the case, a first lifting cover coupled to one side of the rotator and allowing a lifting gear extending in an up-down direction to be fixed thereto, a second lifting cover movably accommodated inside the first lifting cover, a lifting motor coupled to the second lifting cover and configured to interwork with the lifting motor, and a water ejection nozzle installed at a lower end of the second lifting cover and configured to eject water. A water ejection pipe having one end connected to the water ejection nozzle and the other end extending to an inside of the case is disposed in a lower space of the lifting motor and the gear module.

A beverage dispenser uses-high ratio concentrates to mix on-demand beverages. The high-ratio concentrate is pre-mixed with an alkaline water to allow for improved blending performance in the final beverage. The beverage recipe may be customized by the user to suit personal tastes. Aspects of the beverage dispenser also may include the ability to dispense room temperature, chilled, heated, sparkling, or highly alkaline beverages. Operation of a user interface to receive a beverage order includes the ability to display and employ user interfaces present on both a display on the beverage dispenser and an application on a mobile device. In some aspects, both user interfaces may be used simultaneously to receive user input. Methods of dispensing a beverage using the beverage dispensing systems are also discussed.

A water ejecting apparatus includes a case and a water ejection unit connected to one side of the case. The water ejection unit includes a first lifting cover having a lifting gear extending in an up-down direction, a second lifting cover movably accommodated inside the first lifting cover, a lifting motor coupled to the second lifting cover and configured to interwork with the lifting motor, a water ejection nozzle installed at a lower end of the second lifting cover and configured to eject water, and a light source disposed inside the second lifting cover and configured to output light to a lower side or a side surface of the second lifting cover.